FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry

FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry

Abstract Currently, in mass spectrometry-based metabolomics, limited reference mass spectra are available for flavonoid identification. In the present study, a database of probable mass fragments for 6,867 known flavonoids (FsDatabase) was manually constructed based on new structure- and fragmentati...

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Main Authors: Nayumi Akimoto, Takeshi Ara, Daisuke Nakajima, Kunihiro Suda, Chiaki Ikeda, Shingo Takahashi, Reiko Muneto, Manabu Yamada, Hideyuki Suzuki, Daisuke Shibata, Nozomu Sakurai
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-01390-3
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spelling doaj-a5e9c68ef75f435a8e0ae06143f96e462020-12-08T00:12:42ZengNature Publishing GroupScientific Reports2045-23222017-04-01711910.1038/s41598-017-01390-3FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometryNayumi Akimoto0Takeshi Ara1Daisuke Nakajima2Kunihiro Suda3Chiaki Ikeda4Shingo Takahashi5Reiko Muneto6Manabu Yamada7Hideyuki Suzuki8Daisuke Shibata9Nozomu Sakurai10Kazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteKyoto University, Graduate School of Agriculture, GokashoKazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteKazusa DNA Research InstituteAbstract Currently, in mass spectrometry-based metabolomics, limited reference mass spectra are available for flavonoid identification. In the present study, a database of probable mass fragments for 6,867 known flavonoids (FsDatabase) was manually constructed based on new structure- and fragmentation-related rules using new heuristics to overcome flavonoid complexity. We developed the FlavonoidSearch system for flavonoid annotation, which consists of the FsDatabase and a computational tool (FsTool) to automatically search the FsDatabase using the mass spectra of metabolite peaks as queries. This system showed the highest identification accuracy for the flavonoid aglycone when compared to existing tools and revealed accurate discrimination between the flavonoid aglycone and other compounds. Sixteen new flavonoids were found from parsley, and the diversity of the flavonoid aglycone among different fruits and vegetables was investigated.https://doi.org/10.1038/s41598-017-01390-3
collection DOAJ
language English
format Article
sources DOAJ
author Nayumi Akimoto
Takeshi Ara
Daisuke Nakajima
Kunihiro Suda
Chiaki Ikeda
Shingo Takahashi
Reiko Muneto
Manabu Yamada
Hideyuki Suzuki
Daisuke Shibata
Nozomu Sakurai
spellingShingle Nayumi Akimoto
Takeshi Ara
Daisuke Nakajima
Kunihiro Suda
Chiaki Ikeda
Shingo Takahashi
Reiko Muneto
Manabu Yamada
Hideyuki Suzuki
Daisuke Shibata
Nozomu Sakurai
FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
Scientific Reports
author_facet Nayumi Akimoto
Takeshi Ara
Daisuke Nakajima
Kunihiro Suda
Chiaki Ikeda
Shingo Takahashi
Reiko Muneto
Manabu Yamada
Hideyuki Suzuki
Daisuke Shibata
Nozomu Sakurai
author_sort Nayumi Akimoto
title FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
title_short FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
title_full FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
title_fullStr FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
title_full_unstemmed FlavonoidSearch: A system for comprehensive flavonoid annotation by mass spectrometry
title_sort flavonoidsearch: a system for comprehensive flavonoid annotation by mass spectrometry
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-04-01
description Abstract Currently, in mass spectrometry-based metabolomics, limited reference mass spectra are available for flavonoid identification. In the present study, a database of probable mass fragments for 6,867 known flavonoids (FsDatabase) was manually constructed based on new structure- and fragmentation-related rules using new heuristics to overcome flavonoid complexity. We developed the FlavonoidSearch system for flavonoid annotation, which consists of the FsDatabase and a computational tool (FsTool) to automatically search the FsDatabase using the mass spectra of metabolite peaks as queries. This system showed the highest identification accuracy for the flavonoid aglycone when compared to existing tools and revealed accurate discrimination between the flavonoid aglycone and other compounds. Sixteen new flavonoids were found from parsley, and the diversity of the flavonoid aglycone among different fruits and vegetables was investigated.
url https://doi.org/10.1038/s41598-017-01390-3
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AT takeshiara flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
AT daisukenakajima flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
AT kunihirosuda flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
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AT manabuyamada flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
AT hideyukisuzuki flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
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AT nozomusakurai flavonoidsearchasystemforcomprehensiveflavonoidannotationbymassspectrometry
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